Mobile tv system and method with fast channel change

ABSTRACT

To reduce latency during channel change, when a user changes the TV channel on a mobile TV device such as a wireless phone, the device leaves the power save mode and enters, for a limited timeout period, a fully energized mode in which the receiver and front end logic of the device remain energized during periods in which content from the old channel, content from the new channel, and content from a “next” channel are interleaved into the broadcast.

I. FIELD OF THE INVENTION

The present invention relates generally to providing content frommultiple television channels to mobile wireless devices such as wirelesstelephones.

II. BACKGROUND OF THE INVENTION

“Mobile TV” refers to over-the-air broadcast or multicast of TV contentto handheld devices such as cell phones. Several technologies have beenproposed for mobile TV, including DVB-H, DMB, 3G Based technologies andthe “MediaFlo” system.

As understood herein, in general mobile TV broadcast technologiesimprove upon non-Mobile TV broadcast technologies by improving ForwardError Correction (FEC) as well as receiver battery life, both of whichadvances are desired for mobile devices.

As further understood herein, however, in seeking to preserve batterypower, a tradeoff is made that increases the latency (delay) of thebroadcast content. In understanding why, several channels may betime-sliced onto one broadcast, i.e., the content of one channel, mightbe broadcast at a high data rate for two seconds, followed by thecontent of another channel at a high data rate, for two seconds,followed the content of yet a third channel at a high data rate for twoseconds, and so on. Hence, a mobile receiver's radio and front end logicneed only be energized for the two seconds in which the user-selectedchannel is broadcast out of every cycle, remaining off and thus savingpower for the remaining time. To this end, the receiver isnotified viasystem information packets and packet IDs when the contents of aparticular program will be broadcast as wellas the duration of the onand off periods.

But as recognized herein, the above power-saving protocol imposes arelatively lengthy delay if the user changes the channel, forcing theuser to wait up to a complete cycle until the content for the newchannel arrives. This, delay is annoying particularly to users who tendto frequently “channel hop”.

SUMMARY OF THE INVENTION

A method for providing TV content includes receiving a channel changecommand and in response energizing a portion (such as the radio andfront end logic) of a mobile TV device at least during periods in whichcontent from an old channel and content from a new channel are presentin a TV signal. Preferably, the portion is also energized during periodsin which content from a “next” channel is present in the TV signal. Thismode is referred to herein as the multiple, channel reception mode. Theportion may be automatically deenergized after a timeout period duringall periods except periods in which content from the new channel ispresent in the TV signal to assume a power save mode.

In some implementations, the “next” channel is the channel havingcontent sent in the TV signal immediately after content from the newchannel is sent in the TV signal. in other implementations, the “next”channel is a user-designated favorite channel.

The mobile TV device can be configured in the multiple channel receptionmode in response to a scan command, and also in response to a surfcommand, with the timeout period effectively being set to infinity inthe latter case. In the multiple channel reception mode, content can bereceived at relatively low bit rate compared to the bit rate used thepower save mode.

In another aspect, a mobile TV device includes a wireless receiver, acommand input device, and a display device configured to display TVsignals. A processor communicates with these elements. The processorconfigures a portion of the mobile TV device in a power save mode duringTV viewing using the device until a channel change command is receivedfrom the command input device, at which point the processor configuresthe portion in a multiple channel reception mode at least until atimeout period elapses.

In yet another aspect, a mobile TV device includes a circuit forprocessing a TV signal carrying content from at least first and secondTV channels, and means for inputting a channel change command. Logicmeans are provided for configuring the circuit in a reduced power mode,wherein the circuit is energized only for portions of the TV signalcarrying content from the first TV channel. Also, logic means that areresponsive to the means for inputting configure the circuit in amultiple channel reception mode, wherein the circuit is energized atleast for portions of the TV signal carrying content from the first TVchannel and for portions of the TV signal carrying content from thesecond TV channel.

BRIEF DESCRIPTION OF THE DRAWINGS

The details of the present invention, both as to its structure andoperation, can best be understood in reference to the accompanyingdrawings, in which like reference numerals refer to like parts, and inwhich:

FIG. 1 is a schematic diagram of a non-limiting mobile TV system; and

FIG. 2 is a flow chart of example logic in accordance with theinvention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring initially to FIG. 1, a mobile TV system is shown, generallydesignated 10, which includes at least one transmitting station 12 thatcombines content from multiple TV channels (four shown in FIG. 1) in aTV signal. Accordingly, FIG. 1 shows that the transmitting station 12can include a multiplexer 14 that essentially interleaves the channelsignals into a single stream in accordance with principles discussedabove for wireless transmission thereof by a transmitter 16 to one ormore mobile TV devices 18, such as but not limited to wirelesstelephones. The particular type of over-the-air broadcast or multicastparadigm used may be, without limitation, DVB-H, DMB, 3G Basedtechnologies, and the “MediaFlo” system.

In the non-limiting embodiment shown in FIG. 1, the mobile TV deviceincludes a display 20 that can display TV signals and a keypad 22 orother data entry device that a user can manipulate. The keypad 22 mayinclude a channel up key 24 and a channel down key 26, as well as otherkeys, e.g., a channel surf key and a channel scan key. The channel upand down keys 24, 26 alternatively may be considered to be “next”channel keys and “previous” channel keys.

The TV signal from the transmitting station 12 is received in a wirelessreceiver, such as a wireless transceiver 28, that is controlled by aprocessor 30. The processor 30 may include associated data storage: Abattery 32 powers the mobile TV device 18. All of the components of themobile TV device 18 may be on a single housing.

FIG. 2 shows logic that may be executed by the processor 30 inaccordance with present principles. The processor 30 may access one ormore software or hardware elements to undertake the logic. The flowchart illustrates the structure of the logic modules of one non-limitingembodiment of the present invention as embodied in computer programsoftware. Those skilled in the art will appreciate that the flow chartillustrates the structures of logic elements, such as computer programcode elements or electronic logic circuits, that function according tothis invention. Manifestly, the invention is practiced in its essentialembodiment by a machine component that renders the logic elements in aform that instructs a digital processing apparatus (that is, a computeror microprocessor) to perform a sequence of function steps correspondingto those shown. Internal logic could be as simple as a state machine.

In other words, the present logic may be established as a computerprogram that is executed by a processor as a series ofcomputer-executable instructions. In addition to residing on disks,these instructions may reside, for example, in RAM or other solid statememory of the appropriate computer, or the instructions maybe stored onmagnetic tape, electronic read-only memory, or other appropriate datastorage device.

Commencing at block 34, a power save mode is established in which aportion of the mobile TV device is deenergized for all periods of the TVsignal from the transmitting station 12 except for the periods thatcarry content (typically packetized) from a TV channel that previouslyhas been selected by the user. This channel may be regarded, as an “old”channel. Substantially the entire mobile TV device 18 is energizedduring periods in which “old” channel content is carried so that thecontent may be processed and displayed on the display 20 in accordancewith TV principles known in the art. Otherwise, i.e., during periodsthat do not carry content from the selected channel, portions of themobile TV device 18 are deenergized, to conserve the battery 32. Theseportions may include, by way of non-limiting example, the radio (i.e.,the transceiver 28) and front end logic components of the mobile TVdevice 18. In any case, all content may be carried on a singlefrequency, or multiple frequencies may be used.

If the user desires to change channels, manipulates the keypad, 22accordingly, e.g., by depressing the channel “up” key 24, in which casethe logic flows to block 36, to receive the channel change command.Reception of a channel change command causes the logic to move to block38, wherein the processor 30 configures the mobile TV device 18 in amultiple channel reception mode as follows. In the multiple channelreception mode, the content for the old channel, newly-selected channel,and preferably a “next” channel are all received, i.e., substantiallythe entire mobile TV device 18 is energized during periods correspondingto transmission of content from the above three channels. Typically thisdoes not require tuning to a different frequency channel when, e.g., theDVB-H protocol is used.

In the multiple channel reception mode, the logic loops to decisiondiamond 40, wherein it is determined whether a timeout period haselapsed since, e.g., the channel change command was received. If not,the logic causes the mobile TV device 18 to remain in the multiplechannel reception mode as shown; otherwise, the logic loops back toblock 34 to reconfigure the mobile TV device 18 into the power savemode.

With the above logic in mind, it can now be appreciated that if the useragain presses, e.g., a “previous channel” or “next channel” key, when inthe multiple channel reception mode, the channel change latency will begreatly reduced compared to what it is in the power save mode. Thepurpose of the “time out” duration mentioned above thus is to revert toreceiving a single channel to save battery power when the user appearsto have stopped “channel hopping”.

While the effect of depressing keys for, e.g., “previous channel” and“current channel” are evident, the concept of “next channel” may emailmore variability. By way of non-limiting example, two possibilitiesmight be that the “next channel” key simply increments the channels inthe order broadcast or presented by the broadcaster, e.g., in thesequence in which the transport stream packets are multiplexed in thebroadcast, or the “next channel” key may lead to display of the next“favorite” channel that may have been programmed by the user.Accordingly, while in multiple channel reception mode, the mobile TVdevice 18 preferably determines what would constitute the appropriate“next channel” depending on the functions being performed by the “nextchannel” key being pressed.

In some implementations, the multiple channel reception mode also may beenabled in other cases. For instance, the multiple channel receptionmode may be entered if the user selects a “scan channels” option, wherethe mobile TV device 18 automatically increments to the next channel,displays the content for a fixed period of time, increments to thechannel, and so on. The multiple channel reception mode may also bepermanently invoked (i.e., the timeout period in effect is set toinfinity) when the user selects a “channel surf mode” option, unless anduntil the channel surf mode is disabled by the user.

Further, in some embodiments, for broadcast protocols and AV codecs thatsupport multiple layered encoding, channels received in the multiplechannel, reception mode can be received at the lower bit rates than achannel is received in the power save mode, to decrease total powerconsumption and to reduce use of device system resources.

It should be understood that variations are contemplated such asimplementations that result from, replacing the term “previous channel”and “next channel” by “previous n channels” and “next n channels”, where1<=n<=TotalNumberChannels.

While the particular MOBILE TV SYSTEM AND METHOD WITH FAST CHANNELCHANGE as herein shown and described in detail is fully capable ofattaining the above-described objects of the invention, it is to beunderstood that it is the presently preferred embodiment of the presentinvention and is thus representative of the subject matter which isbroadly contemplated by the present invention, that the scope of thepresent invention fully encompasses other embodiments which may becomeobvious to those skilled in the art, and that the scope the presentinvention is accordingly to be limited by nothing other than theappended claims, in which reference to an element in the singular means“at least one”. All structural and functional equivalents to theelements of the above-described preferred embodiment that are known orlater come to be known to those of ordinary skill in the art areexpressly incorporated herein by reference and are intended to beencompassed by the present claims. Moreover, it is not necessary for adevice or method to address each and every problem sought to be solvedby the present invention, for it to be encompassed by the presentclaims. Furthermore, no element, component, or method step in thepresent disclosure is intended to be dedicated to the public regardlessof whether the element, component, or method step is explicitly recitedin the claims. No claim element herein is to be construed under theprovisions of 35 U.S.C. 112, sixth paragraph, unless the element isexpressly recited using the phrase “means for”.

1. A method for providing data, comprising: receiving a channel changecommand; and in response to the channel change command, energizing aportion of a device at least during periods in which data from an oldchannel and data from a new channel are present in a signal whilereceiving data at a first bit rate, data being received in a power savemode at a second bit rate different from the first bit rate.
 2. Themethod of claim 1, wherein the portion is energized during periods inwhich data from a “next” channel is present in the signal.
 3. The methodof claim 1, wherein the old channel is a channel displayed on the devicejust prior to receiving the channel change command, the new channel isthe channel selected by the channel change command, and the portion isdeenergized after a timeout period during all periods except periods inwhich data from the new channel is present in the signal to assume thepower save mode.
 4. The method of claim 1, wherein the portion isautomatically changed to the power save mode after the timeout period.5. The method of claim 2, wherein the “next” channel is the channelhaving data sent in the signal immediately after data from the newchannel is sent in the AV signal.
 6. The method of claim 2, wherein the“next” channel is a user-designated favorite channel.
 7. The method ofclaim 1, wherein energizing the portion of the device at least duringperiods in which data from the old channel and data from the new channelare present in the signal establishes a multiple channel reception mode,and the method further comprises configuring the device in the multiplechannel reception mode in response to a scan command.
 8. The method ofclaim 1, wherein energizing the portion of the device at least duringperiods in which data from the old channel and data from the new channelare present in the signal establishes a multiple channel reception mode,and the method further: comprises configuring the device in the multiplechannel reception mode in response to a surf command, and the timeoutperiod is effectively set to infinity.
 9. The method of claim 3, whereinenergizing the portion of the device at least during periods in whichdata from the old channel and data from the new channel are present inthe signal establishes a multiple channel reception mode, and the firstbit rate is a relatively low bit rate in the multiple channel receptionmode and the second bit rate is a relatively high bit rate in the powersave mode
 10. A device, comprising: a receiver; an audio and/or videodisplay device configured to display audio and/or video (AV) signals;and a processor communicating with the receiver, display device,executing logic comprising: configuring a portion of the mobile devicein a power save mode and receiving data at a first bit rate when usingthe device until a predetermined command is received at which pointreceiving data at a second bit rate and configuring the portion in amultiple channel reception mode.
 11. The device of claim 10, wherein theprocessor reconfigures the portion in the power save mode at the elapseof a timeout period.
 12. The device of claim 10, wherein the data iscontent and wherein when in the multiple channel reception mode, theportion is energized at least during periods in which content from anold channel and content from a new channel are present in a AV signal,and when in the power save mode, the portion is deenergized during allperiods except periods in which content from the new channel is presentin the AV signal.
 13. The device of claim 12, wherein when in themultiple channel reception mode, the portion is energized during periodsin which content from a “next” channel is present in the AV signal. 14.The device of claim 10, wherein the portion is automatically changed tothe power save mode after a timeout period.
 15. The device of claim 13,wherein the “next” channel is the channel having content sent in the AVsignal immediately after content from the new channel is sent in the AVsignal.
 16. The device of claim 13, wherein the “next” channel is auser-designated favorite channel.
 17. The device of claim 10, whereinthe portion is configured in the multiple, channel reception mode inresponse to a scan command.
 18. The device of claim 10, wherein Theportion is configured in the multiple channel reception mode in,response to a surf command.
 19. The device of claim 10, wherein contentis received at the second bit rate which is a relatively low bit rate inthe multiple channel reception mode and the first bit rate is arelatively high bit rate in the power save mode.
 20. A mobile TV device,comprising: a circuit for processing content from at least first andsecond content sources; the circuit receiving a content source changecommand, the circuit being configured the circuit in a reduced powermode, in which data is received at a first bit rate, wherein the circuitis energized only for portions of a signal carrying content from thefirst content source; and the circuit being responsive to the contentsource change command to receive content at a second bit rate differentfrom the first bit rate, wherein the circuit is energized at least forportions of a signal carrying content from the first content source andfor portions of the signal carrying content from the second contentsource.